Control method of electronic waste gate actuator

What is claimed is: 1. A method for controlling an electronic waste gate actuator (EWGA) in an electronic waste gate actuator system in which the electronic waste gate actuator is connected to a waste gate valve via a rod, the method comprising: an operation condition determination step for determining whether an engine is in cold operation or in hot operation by measuring an engine soak time and an initial temperature of coolant when the engine starts and by respectively comparing the engine soak time and the initial temperature of the coolant with a predetermined reference soak time and a predetermined reference coolant temperature; a cold control step for setting a cold operation reference voltage, for performing cold operation learning, and for applying cold operation learning data to the cold operation reference voltage, when it is determined at the operation condition determination step that the engine is in cold operation, wherein at the cold control step, a cold operation voltage of the EWGA is measured in real time during driving of the vehicle; a cold limp-home conversion step for converting into a limp-home mode in which rpm of the engine is limited to be equal to or less than a set reference rpm when the cold operation voltage is greater than the cold operation reference voltage after the cold control step; a hot control step for setting a hot operation reference voltage, for performing hot operation learning, and for applying hot operation learning data to the hot operation reference voltage, when it is determined at the operation condition determination step that the engine is in hot operation, wherein at the hot control step, a hot operation voltage of the EWGA is measured in real time during driving of the vehicle; and a hot limp-home conversion step for converting into a limp-home mode in which rpm of the engine is limited to be equal to or less than a set reference rpm when the hot operation voltage is greater than the hot operation reference voltage after the hot control step. 2. The method of claim 1 , wherein the cold control step is configured to measure in real time a driving coolant temperature during driving of a vehicle while controlling the EWGA depending on the cold operation reference voltage, and to change to the hot control step when the driving coolant temperature is greater than the reference coolant temperature. 3. The method of claim 1 , wherein the cold limp-home conversion step comprises an alarm step in which an alarm is output to enable a driver to recognize a risk state of the engine. 4. The method of claim 1 , wherein the hot limp-home conversion step comprises an alarm step in which an alarm is output to enable a driver to recognize a risk state of the engine. 5. The method of claim 1 , wherein the reference soak time is 6 hours and the reference coolant temperature is 20° C. 6. The method of claim 1 , wherein at the cold control step, the set reference rpm of the engine is limited to be 2000 rpm. 7. The method of claim 1 , wherein at the hot control step, the set reference rpm of the engine is limited to be 2000 rpm.